JP2019092182A - Service common apparatus and determination method - Google Patents

Abstract

To provide a communication system capable of performing optimization of network processing.SOLUTION: A communication system includes an application server (10) configured to detect the behavior of a communication terminal (50) and a common service device (20) configured to receive an identifier of the communication terminal (50) and behavior information of the communication terminal (50) transmitted from the application server (10) via a first interface defined with the application server (10), and transmits, to the mobile network node (40), the identifier of the communication terminal (50) and the behavior information of the communication terminal (50) via a second interface defined with the mobile network node (40) in order to optimize the parameter concerning the communication terminal (50).SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication system, a service common apparatus, a mobile network node apparatus, a data communication method and a program, and more particularly to a communication system, a service common apparatus, a mobile network node apparatus, a data communication method and a program for optimizing parameters of a communication terminal.

  In recent years, a method for optimizing the setting of each processing node configuring the mobile communication system is required. In 3GPP, there has been proposed a method for optimizing network processing in accordance with the usage characteristics of a mobile communication terminal (Non-Patent Document 1). For example, with regard to terminals fixedly installed at specific locations, network processing may be performed to reduce control processing related to movement. Specifically, the interval at which the terminal performs position registration may be set longer than a predetermined time. Furthermore, in the case where the mobile communication terminal is a terminal that allows a delay, the network is controlled so as to transmit data to the mobile terminal by controlling the communication time to avoid the timing when the amount of data transmission and reception peaks. Processing may be performed.

3GPP TS 22.368 V11.3.0 (2011-09) 3rd Generation Partnership Project; Technical Specification Group Services and System Aspects; Service requirements for Machine-Type Communications (MTC); Stage 1 (Release 11)

  However, as described above, optimization of network processing is performed for mobile terminals whose usage characteristics are fixed. For example, whether a terminal fixedly installed at a specific place or a terminal that allows a delay is determined using the service information or terminal information of the terminal, which is determined in advance. Currently, in addition to the above-mentioned optimization of network processing, it is required to execute optimization of network processing for mobile terminals whose usage characteristics change. Therefore, it is required to execute optimization of network processing using information other than service information and the like which generally changes infrequently.

  An object of the present invention is to provide a communication system and service common apparatus capable of executing optimization of network processing using information other than service information etc., which generally changes infrequently, in order to solve the problems described above. Mobile network node apparatus, data communication method and program

  The communication system according to the first aspect of the present invention is characterized in that, from the application server via a first interface defined between the application server configured to detect the behavior of the communication terminal and the application server. Via a second interface defined with the mobile network node device to receive the transmitted identifier of the communication terminal and behavior information of the communication terminal and optimize parameters for the communication terminal; A service common apparatus configured to transmit an identifier of the communication terminal and behavior information of the communication terminal to the mobile network node apparatus.

  The service common apparatus according to a second aspect of the present invention is the service common apparatus transmitted from the application server via a first interface defined between the application server configured to detect the behavior of the communication terminal. In order to receive the identifier of the communication terminal and the behavior information of the communication terminal and optimize the parameters regarding the communication terminal, the communication terminal of the communication terminal via a second interface defined between the mobile network node device and the mobile network node device. A communication unit for transmitting an identifier and behavior information of the communication terminal to the mobile network node device.

  A mobile network node apparatus according to a third aspect of the present invention is transmitted from the application server via a first interface defined between the application server configured to detect the behavior of the communication terminal. The identifier of the communication terminal and the behavior information of the communication terminal are acquired from the service common device that has received the identifier of the communication terminal and the behavior information of the communication terminal via the second interface, and the parameters regarding the communication terminal are optimized It is

  A data communication method according to a fourth aspect of the present invention is the data communication method according to the fourth aspect of the present invention, the data communication method transmitted from the application server via a first interface defined between the application server configured to detect the behavior of the communication terminal. In order to receive the identifier of the communication terminal and the behavior information of the communication terminal and optimize the parameters regarding the communication terminal, the communication terminal of the communication terminal via a second interface defined between the mobile network node device and the mobile network node device. An identifier and behavior information of the communication terminal are transmitted to the mobile network node device.

  The program according to the fifth aspect of the present invention is the communication terminal transmitted from the application server via a first interface defined between the application server configured to detect the behavior of the communication terminal and the application server configured to detect the behavior of the communication terminal. Identifier of the communication terminal and behavior information of the communication terminal to optimize parameters related to the communication terminal, via the second interface defined between the mobile network node apparatus and the identifier of the communication terminal, The computer is caused to execute the step of transmitting the behavior information of the communication terminal to the mobile network node device.

  A communication system, a service common apparatus, a mobile network node apparatus, a data communication method, and a program capable of executing optimization of network processing using information other than service information etc., which generally changes infrequently, according to the present invention. Can be provided.

FIG. 1 is a configuration diagram of a communication network according to a first embodiment. FIG. 7 is a configuration diagram of an application server according to a second embodiment. FIG. 7 is a block diagram of a common service device according to a second embodiment. FIG. 7 is a diagram of a mobile network node according to a second embodiment. FIG. 10 is a block diagram of a communication network according to a third embodiment. FIG. 16 is a diagram showing subresources of serviceExposure Resource according to the second embodiment. FIG. 16 is a diagram showing Attributes of deviceCharactoristic Resource according to the second embodiment. FIG. 16 is a diagram showing Attributes of deviceCharactoristic Resource according to the second embodiment. FIG. 16 is a diagram showing Attributes of areaService resource or groupService resource according to the second embodiment. FIG. 16 is a diagram showing Attributes of areaService resource or groupService resource according to the second embodiment. FIG. 18 is a diagram showing subresources of deviceTriggering resource according to the second embodiment. FIG. 16 is a diagram showing Attributes of device Triggering resource according to the second embodiment. FIG. 18 is a diagram showing an attribute of triggerResult resource according to the second embodiment. FIG. 18 is a diagram for explaining a link connection procedure in the Z Reference Point according to the second embodiment. FIG. 18 is a diagram for explaining a link disconnection procedure in the Z Reference Point according to the second embodiment. FIG. 16 is a diagram for explaining a link monitoring procedure in the Z Reference Point according to the second embodiment. FIG. 16 is a diagram for explaining a service request procedure via the Z Reference Point according to the second embodiment. FIG. 16 is a diagram for explaining the flow of processing when execution of a service according to the second embodiment is successful. FIG. 18 is a diagram for explaining the flow of processing when execution of a service according to the second embodiment fails. FIG. 18 is a diagram for explaining the flow of asynchronous response processing to a service execution request according to the second embodiment; FIG. 18 is a diagram for explaining the flow of processing when the AE according to the second embodiment updates a CSE resource. FIG. 18 is a diagram for explaining the flow of processing when the NSE 60 according to the second embodiment requests the CSE 50 to update a resource. FIG. 16 is a diagram showing a flow of parameter change processing according to the third embodiment. FIG. 18 is a diagram showing a flow of message reception processing according to the third embodiment. FIG. 10 is a block diagram of a communication network according to a fourth embodiment. FIG. 16 is a block diagram of a communication network according to a fifth embodiment.

Embodiment 1
Hereinafter, embodiments of the present invention will be described with reference to the drawings. A configuration example of the communication system according to the first embodiment of the present invention will be described using FIG. The communication system of FIG. 1 includes an application server 10, a common service device 20, a mobile network node 40, and a communication terminal 50. Mobile network node 40 is a device disposed in mobile network 30.

  The application server 10 detects the behavior of the communication terminal 50. The behavior of the communication terminal 50 may be a content indicating a movement state, a communication state or the like of the communication terminal 50. The movement state may be referred to as, for example, a movement characteristic indicating the movement speed or the like of the communication terminal 50, and the communication state may be referred to as a communication characteristic indicating an average usage band or the like of the communication terminal 50. In addition, the behavior of the communication terminal 50 may be, for example, content indicating battery information of the communication terminal.

  The application server 10 acquires, from the communication terminal 50, information indicating behavior. For example, the application server 10 acquires information indicating the behavior of the communication terminal 50 via the mobile network 30 to which the communication terminal 50 is connected. Alternatively, the application server 10 may acquire information indicating the behavior of the communication terminal 50 via a server that communicates with the communication terminal 50.

  The mobile network 30 is a network managed by a mobile telecommunications carrier. The mobile network 30 may be, for example, a network in which node devices defined in 3GPP are arranged. Therefore, the mobile network node 40 disposed in the mobile network 30 may be a node device defined in 3GPP.

  The common service device 20 receives, via the interface defined with the application server 10, the identifier of the communication terminal 50 transmitted from the application server 10 and the information on the behavior of the communication terminal 50. The interface defined between the common service device 20 and the application server 10 may be, for example, a data format format defined when performing data communication between the common service device 20 and the application server 10.

  The common service device 20 identifies the communication terminal 50 via the interface defined with the mobile network node 40 in order to optimize the parameters associated with the communication terminal 50 held in the mobile network node 40. And information on the behavior of the communication terminal 50 to the mobile network node 40.

  The optimization of the parameters related to the communication terminal 50 means, for example, increasing or decreasing the communication resources allocated to the communication terminal 50 in the mobile network node 40 according to the behavior of the communication terminal 50. The mobile network node 40 optimizes the parameters associated with the communication terminal 50 based on the identifier of the communication terminal 50 and the information on the behavior of the communication terminal 50.

  The interface defined between the common service device 20 and the mobile network node 40 has, for example, a data format format defined when performing data communication between the common service device 20 and the mobile network node 40. Good.

  As described above, by using the communication system according to the first embodiment of the present invention, the common service device 20 notifies the mobile network node 40 of information related to the behavior of the communication terminal 50 dynamically changing. Can. Furthermore, the mobile network node 40 can optimize the parameters associated with the communication terminal 50 using information regarding the behavior of the communication terminal 50 that changes frequently. By this, it is possible to reduce the load in the mobile network 30, such as improvement of the accommodation efficiency of the communication terminal in the mobile network 30.

Second Embodiment
Subsequently, a configuration example of the application server 10 according to the second embodiment of the present invention will be described using FIG. The application server 10 has a behavior management unit 11.

  The behavior management unit 11 detects the behavior of the communication terminal 50 connected to the mobile network 30. For example, the communication terminal 50 autonomously transmits information on the behavior to the application server 10 at the timing when the behavior in the own device changes. Alternatively, the communication terminal 50 may periodically transmit information on the behavior of the own device to the application server 10. The application server 10 may detect the behavior of the communication terminal 50 by acquiring information on the behavior transmitted from the communication terminal 50.

  Here, the behavior of the communication terminal 50 will be described in detail. The information on the behavior of the communication terminal 50 includes, for example, movement characteristics of the communication terminal 50, communication characteristics, battery information and the like. The movement characteristic of the communication terminal 50 may be, for example, information indicating whether the communication terminal 50 is moving. Moreover, when the communication terminal 50 is moving, it may be information indicating whether the moving speed is faster or slower than a predetermined speed.

  For example, a state in which the communication terminal 50 is not moving is referred to as a Stop state, and a state in which the communication terminal 50 is moving at a speed slower than a predetermined speed is referred to as a low mobility state. A state of moving at a speed faster than a predetermined speed may be referred to as a High Mobility state.

  Alternatively, the movement characteristic of the communication terminal 50 may be information indicating the movement range of the communication terminal 50. For example, the movement characteristic of the communication terminal 50 may be information indicating a range in which the communication terminal 50 has moved within a predetermined period, or may be information indicating a locus along which the communication terminal 50 has moved within a predetermined period. Good. Furthermore, the movement characteristic of the communication terminal 50 may be information on the destination of the communication terminal 50.

  The communication characteristics of the communication terminal 50 are, for example, an average usage bandwidth, an average communication time, an average operation time, an average communication interval, and the like in a predetermined period when the communication terminal 50 is communicating via the mobile network 30. May be Alternatively, the communication characteristic of the communication terminal 50 may be information indicating a time zone in which the communication terminal 50 communicates. Alternatively, the communication characteristic of the communication terminal 50 may be a delay time of data permitted by the communication terminal 50.

  The battery information of the communication terminal 50 may be, for example, information indicating the remaining battery capacity of the communication terminal 50. Alternatively, the battery information of the communication terminal 50 may be information indicating whether the communication terminal 50 is charging or not, even if the information indicates whether the communication terminal 50 is operating in the power saving mode. Good.

  In addition, the information on the behavior of the communication terminal 50 may be information on an application activated by the communication terminal 50, or may be information on the radio wave condition of the communication terminal 50.

  When the behavior management unit 11 acquires, from the communication terminal 50, information on behavior including the movement characteristic, communication characteristic, battery information or other information of the communication terminal 50, the information is held.

  Here, the behavior management unit 11 sends the information for identifying the communication terminal 50 to the common service device 20 together with the information on the behavior of the communication terminal 50 through the interface defined between the application server 10 and the common service device 20. Send.

  Subsequently, a configuration example of the common service device 20 according to the second embodiment of the present invention will be described using FIG. The common service device 20 includes a communication unit 21 and an authentication unit 22.

  The communication unit 21 receives the identifier of the communication terminal 50 and the information on the behavior of the communication terminal 50 transmitted from the application server 10 via the interface set with the application server 10.

  The communication unit 21 outputs the received information on the identifier of the communication terminal 50 and the behavior of the communication terminal 50 to the authentication unit 22.

  The authentication unit 22 performs authentication on the application server 10 using the information output from the communication unit 21.

  For example, the authentication unit 22 may determine whether the application server 10 that is the output source of the information on the behavior of the communication terminal 50, etc. is an application server permitted to be connected in advance. For example, the authentication unit 22 may hold information on a list of application servers permitted to connect in advance.

  If the authentication unit 22 does not permit the connection of the application server 10 as a result of performing the authentication processing, the authentication unit 22 notifies the application server 10 that the connection is not permitted via the communication unit 21 or with the application server 10 The connection between them may be disconnected. When the authentication unit 22 permits the connection of the application server 10 as a result of performing the authentication process, the authentication unit 22 may output, to the communication unit 21, a notification that the connection of the application server 10 is permitted.

  When the authentication unit 22 permits the connection of the application server 10, the communication unit 21 outputs, to the mobile network node 40, the identifier of the communication terminal 50 output from the application server 10 and the information on the behavior of the communication terminal 50. The communication unit 21 converts the information on the behavior of the communication terminal 50 etc. into the format of the format used in the interface defined between the common service device 20 and the mobile network node 40, and transmits the information to the mobile network node 40. Output.

  Subsequently, a configuration example of the mobile network node 40 according to the second embodiment of the present invention will be described using FIG. The mobile network node 40 has a parameter management unit 41.

  The parameter management unit 41 receives the identifier of the communication terminal 50 and the information on the behavior of the communication terminal 50 transmitted from the common service device 20 via the interface defined with the common service device 20.

  The parameter management unit 41 changes the parameters related to the communication terminal 50 to be optimized based on the information transmitted from the common service device 20. Here, an example regarding optimization of parameters related to the communication terminal 50 will be described.

  For example, it is assumed that the parameter management unit 41 receives information on behavior that the communication terminal 50 is not moving at present and is in a stopped state. In such a case, the parameter management unit 41 may change the parameters defined for the position registration area of the communication terminal 50 so as to narrow the position registration area.

  Generally, the communication terminal 50 transmits a location registration request signal to the mobile network node 40 when moving out of the location registration area. At this time, if the location registration area is narrowed too much, the location registration request signal is transmitted to the mobile network node 40 every time the communication terminal 50 moves a little, which may cause congestion of the mobile network node 40. is there. If the location registration area is made too wide, the number of communication terminals 50 managed by one mobile network node 40 increases, and the processing load on the mobile network node 40 increases.

  On the other hand, when it is detected that the communication terminal 50 is stopped, the communication terminal 50 frequently transmits a position registration request signal even if the position registration area which is a parameter related to the communication terminal 50 is narrowed. Absent. In this manner, information on the communication terminal 50 managed by the parameter management unit 41 can be optimized using the information on the behavior of the communication terminal 50.

  So far, the example of parameter change of the parameter management unit 41 in the case of using the movement characteristic as the information on the behavior has been described, but the parameter of the parameter management unit 41 is changed using information on the behavior other than the movement characteristic. May be

  As described above, by using the application server 10, the common service device 20, and the mobile network node 40 according to the second embodiment of the present invention, the mobile network node 40 manages according to the behavior of the communication terminal 50. The parameters of the existing communication terminal 50 can be changed to be optimized.

Third Embodiment
Subsequently, a configuration example of the communication system according to the third exemplary embodiment of the present invention will be described using FIG. The communication system in FIG. 5 includes an application entity (AE) 60, a common services entity (CSE) 70, and a network service entity (NSE) 80. AE, CSE, and NSE are node devices defined in oneM2M that perform standardization for Machine to Machine services. AE 60 corresponds to the application server 10 in FIG. The CSE 70 corresponds to the common service device 20 in FIG. The NSE 80 corresponds to the mobile network node 40 in FIG.

  The CSE 50 may be a server device managed by a service provider that mediates communication between the AE 60 and the NSE 80. Also, the CSE 70 or a plurality of CSEs 70 managed by such a service provider may be referred to as a service platform.

  Furthermore, the interface between the AE 60 and the CSE 70 is defined as an X Reference Point. Furthermore, the interface between CSE 70 and NSE 80 is defined as a Z Reference Point.

  Here, the X Reference Point will be described. When transmitting information on the behavior of the communication terminal 50 from the AE 60 to the CSE 70, the X Reference Point defines a common format that defines necessary information items and a format dedicated to M2M Devices Information.

  The AE 60 sets the distribution destination service platform ID and the distribution source application ID in the common format. The distribution destination service platform ID is, for example, an ID assigned to the CSE 70. When the service provider manages a plurality of CSEs 70, a distribution destination service platform ID common to the plurality of CSEs 70 may be assigned. The distribution source application ID is an ID used to identify the AE 60.

  The AE 60 sets, in the M2M Devices Information dedicated format, the terminal ID of the communication terminal 50 that has transmitted the information related to the behavior, and the information related to the behavior.

  The terminal ID of the communication terminal 50 may use International Mobile Subscriber Identity (IMSI), which is an identifier of a terminal defined in 3GPP. Alternatively, as the terminal ID of the communication terminal 50, another identifier such as a telephone number for identifying the communication terminal 50 may be used.

  As the information on behavior, movement characteristics, communication characteristics, battery information or other information other than these are set.

  The AE 60 may divide the above-described information items into required items requiring setting and optional items enabling arbitrary setting, without setting all the information items in the M2M Devices Information dedicated format. For example, the required item may be the terminal ID of the communication terminal 50 that is the parameter change target. Furthermore, items other than the information on the behavior transmitted from the communication terminal 50 among the information on the behavior may be optional items. For example, when the information on the movement characteristic is transmitted from the communication terminal 50, other information such as the communication characteristic may not be set.

  Next, the configuration and functions of the CSE 70 will be described. The CSE 70 has functional blocks called CSFs (Common Service Functions) 75. The CSFs 75 may be configured using, for example, a CPU or the like in the CSE 70. The CSFs 75 correspond to the communication unit 21 and the authentication unit 22 in FIG. The functions performed in the CSFs 75 will be described below.

  The CSFs 75 receive the message sent from the AE 60 via the X Reference Point. Furthermore, the CSFs 75 have a function of checking items set in the received message.

  For example, the CSFs 75 determine whether the distribution source application ID corresponds to an AE previously permitted to connect to the CSE 70. For example, the CSFs 75 may hold information on a list of AEs permitted to connect to the CSE 70 in advance. The CSFs 75 may determine whether the distribution source application ID set in the common format of the message is included in the list of AEs permitted to connect to the CSE 70 in advance.

  Additionally, CSFs 75 may check the legitimacy of other information items of the message. For example, it is assumed that the AE 60 is permitted to set only the movement characteristic as an optional item. The optional items that can be set by the AE 60 may be defined, for example, in a contract between a company managing the AE 60 and a company managing the CSE 70. Further, the CSFs 75 may maintain contract information between operators. In such a case, when the communication characteristic is set in the option item of the message sent from the AE 60, the CSFs 75 may discard the message sent from the AE 60 as an invalid message.

  Alternatively, in the AE 60, it is assumed that a terminal ID that can be set as an essential item is defined. In such a case, when a terminal ID other than a predetermined terminal ID is set as an essential item of the message transmitted from the AE 60, the CSFs 75 determines that the message transmitted from the AE 60 is an invalid message. You may discard it.

  After completing the check of the message, the CSFs 75 send the message to the NSE 80 via the Z Reference Point. Further, when a plurality of NSEs 80 are connected to the CSE 70, the CSFs 75 select an NSE to which a message is to be transmitted, and transmit a message to the selected NSE.

  For example, the CSFs 75 may search the NSE 80 holding the parameter related to the terminal ID set in the message transmitted from the AE 60 among the plurality of NSEs 80, and select the extracted NSE 80. The CSFs 75 may transmit, to the NSE 80, the terminal ID to be a target of parameter change to the NSE 80, and use the response signal to specify the NSE 80 that holds the parameter related to the terminal ID.

  When transmitting the message to the NSE 80, the CSFs 75 convert the message transmitted from the AE 60 into the format used in the NSE 80, and transmit the message with the converted format to the NSE 80. Here, the format used in the NSE 80 is defined as a Z Reference Point. The Z Reference Point defines a common format and an M2M Devices Information format that defines necessary information items when transmitting a message from the CSE 70 to the NSE 80.

  The CSFs 75 set the distribution destination network ID and the distribution source service platform ID in the common format. The distribution destination network ID is, for example, an ID assigned to the NSE 80. The distribution source service platform ID is an ID used to identify the CSE 70.

  The information items to be set in the M2M Devices Information format defined in the Z Reference Point are basically the same as the information items to be set in the M2M Devices Information format defined in the X Reference Point, and therefore detailed description will be omitted.

  Also, the CSFs 75 may analyze the information on the behavior transmitted from the AE 60, set the analyzed result in the M2M Devices Information format, and transmit it to the NSE 80. For example, when the CSFs 75 receives a message set from the AE 60 that the communication terminal is stopped, the CSFs 75 may set the content to instruct to narrow the position registration area in the NSE 80 in the M2M Devices Information format.

  The CSFs 75 may execute charging processing in addition to the functions described above. The charging process may be, for example, generation of charging information when information is distributed using the NSE 80 when a message is received from the AE 60.

  Here, specific examples of CSFs will be described. CSFs are a generic term for multiple functions. One of the multiple functions is Network Service Exposure, Service Execution and Triggering (NSE) CSF. NSE CSF manages multiple resources. Several resources are updated etc. in AE. The NSE CSF notifies the NSE of updated information when the resource managed by the AE is updated via the X Reference Point. The resources managed by the NSE CSF are described below.

NSE CSF manages serviceExposure resource for M2M Applications. Furthermore, the following resources are managed as subresources (child resources) of serviceExposure resource for M2M Applications.
DeviceTriggering resource as a child resource of service Exposure resource
DeviceCharacteristic resource as a child resource of service Exposure resource
LocationNotification resource as a child resource of serviceExposure resource
PolicyRule resource as a child resource of service Exposure resource
LocationQuery resource as a child resource of service Exposure resource
-Ims Service resource as a child resource of service Exposure resource
Device management resource as a child resource of service Exposure resource
Area Service resource as a child resource of service Exposure resource
GroupService resource as a child resource of serviceExposure resource
Underlying Network resource for the CSE operation purpose
Collection of underlying Network resources
Link management resource as a child resource of underlying network resource
Link Credential resource as a child resource of link Management resource

  Information items such as mobility characteristics, communication characteristics, battery information, and other information other than these, which are set in the M2M Devices Information dedicated format, are set in any of the above-described subresources.

  Here, the device Triggering resource, the device Characteristic resource, the area Service resource, the group Service resource, and the subscription resource not described in the above-mentioned sub-resource have the functions shown in FIG.

  For example, the device Triggering resource is a resource that manages the timing at which the AE 40 notifies the NSE 60 of the execution of the service. The deviceCharacteristic resource is, for example, a resource that manages the characteristics of the communication terminal connected to the NSE 60. areaService resource is a resource that manages a distribution area. groupService resource is a resource that manages a group of communication terminals to which information is distributed. The subscription resource is a resource used to notify the updated resource to the AE 40 when any subresource is updated. By having a subscription resource, bi-directional communication between AE 40 and NSE 60 can be performed.

  Furthermore, deviceCharacteristic resource has an Attribute shown in the list of FIG. 7 and FIG. Also, the areaService resource or the groupService resource has an Attribute shown in the list of FIG. 9 and FIG. Further, as shown in FIG. 11, device Triggering resource has triggerResult resource as a sub resource. The device Triggering resource has an Attribute shown in the list of FIG. Moreover, triggerResult resource which is a subresource of deviceTriggering resource has the Attribute shown in the list of FIG.

  When the AE 40 updates (updates) resources such as deviceCharacteristic resource, area Service resource, group Service resource, and device Triggering resource, the CSE 50 selects the NSE 60 to which information is to be notified. The CSE 50 selects, for example, the NSE 60 by determining whether the NSE needs to notify information related to the updated resource. Alternatively, the NSE 60 may be selected based on policy information or the like. The CSE 50 notifies the selected NSE 60 of information on the updated resource.

  In addition, the CSE 50 is mounted on either an Application Service Node (ASN) such as a communication terminal, a Middle Node (MN) such as a router, or an Infrastructure Node (IN) such as a service platform. Here, the information to be notified to the interface used with the NSE or the NSE differs depending on whether the CSE 50 is mounted on the ASN, MN or IN. Therefore, the CSE 50 may have a function of identifying which of the ASN, MN, and IN devices the CSE 50 is mounted on. This function may be realized by a CPU or the like that executes a program stored in the memory.

Here, the case where the CSE 50 is mounted on IN will be described. In this case, when communicating with the NSE, the CSE 50 may select an interface from OMA, GSMA One API framework, and the like. Also, the CSE 50 may request the NSE 60 to execute the functions described below when the subresource included in the service Exposure resource is updated.
・ IP Multimedia communications
・ Messaging
・ Location
・ Charging and billing services
Device information and profiles
Configuration and management of devices
・ Triggering, monitoring of devices
・ Small data transmission
・ Group management

  For example, when the device Triggering resource is updated, the CSE 50 may request the NSE 60 to perform functions related to Triggering and Small data transmission. When the deviceCharacteristic resource is updated, the CSE 50 may request the NSE 60 to perform the function related to Device information and profiles. When the locationNotification resource is updated, the CSE 50 may request the NSE 60 to execute the function related to Location. When the policyRule resource is updated, the CSE 50 may request the NSE 60 to perform the function related to the charging and billing services. When the locationQuery resource is updated, the CSE 50 may request the NSE 60 to execute the function related to Location. When the imsService resource is updated, the CSE 50 may request the NSE 60 to perform the function related to IP Multimedia communications. When the device Management resource is updated, the CSE 50 may request the NSE 60 to execute the function regarding Configuration and management of devices. When the groupService resource is updated, the CSE 50 may request the NSE 60 to execute a function related to Group management.

  Subsequently, a link connection procedure in the Z Reference Point will be described with reference to FIG. First, the CSE 50 transmits a Connection link request message to the NSE 60 (S101). Next, the NSE 60 transmits a Connection link accept message as a response message (S102). After the notification of the message in steps S101 and S102, the NSE 60 and the CSE 50 execute link setting processing (Create link credential) respectively (S103, S104).

  Subsequently, a link disconnection procedure at the Z Reference Point will be described with reference to FIG. First, the CSE 50 transmits a Disconnect link request message to the NSE 60 (S111). Next, the NSE 60 transmits a Disconnect link accept message as a response message (S112). After the notification of the message in steps S111 and S112, the NSE 60 and the CSE 50 respectively execute a link disconnection process (Remove link credential) (S113, S114).

  Subsequently, the link monitoring procedure in the Z Reference Point will be described using FIG. First, the CSE 50 transmits a Watch dog request message to the NSE 60 (S121). Next, the NSE 60 transmits a Watch dog response message as a response message (S122). Next, the CSE 50 determines the link state between the CSE 50 and the NSE 60 based on the Watch dog response message (S123).

  Subsequently, a service request procedure via the Z Reference Point will be described with reference to FIG. First, the CSE 50 determines to transmit a Request message by, for example, updating a resource (S131). Next, the CSE 50 sends a Request message to the NSE 60. Next, the NSE 60 executes the instructed service based on the Request message (S133).

  Subsequently, processing when the execution of the service is successful will be described using FIG. First, the NSE 60 transmits a Response message to the CSE 50 (S141). In the Response message, information indicating that the service has been successfully executed is set. Next, the CSE 50 determines whether another Response message has been sent (S 142).

  Subsequently, processing in the case where execution of the service fails will be described using FIG. First, the NSE 60 transmits a Response message to the CSE 50 (S151). In the Response message, information indicating that the service execution has failed is set. Next, the CSE 50 determines whether the execution of the next service is instructed (S152).

  Subsequently, the flow of asynchronous response processing to a service execution request will be described with reference to FIG. First, the CSE 50 transmits a Request message to the NSE 60 (S161). Next, the NSE 60 transmits a Response message as a response signal to the Request message (S162). After that, the NSE 60 transmits a Request message as a response message regarding the result of executing the service based on the Request message of step S161 (S163). Next, the CSE 50 transmits a Response message as a response message to the Request message of step S163 to the NSE 60 (S164).

  Subsequently, the flow of processing when the AE updates the CSE resource will be described using FIG. First, the AE 40 sends a Request message to the CSE 50 in order to update the resources held by the CSE (S 171). The resources held by the CSE are, for example, subresources included in the service Exposure resource. Next, the CSE 50 transmits a Response message to the AE 40 as a response message (S172).

  Next, the CSE 50 determines to transmit a Request message to the NSE 60 by updating the held resources (S173). Next, the CSE 50 transmits a Request message to the NSE 60 (S174). Next, the NSE 60 executes the instructed service based on the Request message (S175).

  Subsequently, the flow of processing when the NSE 60 requests the CSE 50 to update a resource will be described using FIG. First, the NSE 60 transmits a Request message to request the CSE 50 to update a resource (S181). Here, in FIG. 21, the AE 40 transmits a Request message for directly updating the resource held by the CSE, whereas the NSE 60 does not directly update the resource held by the CSE 50, but the resource in the CSE 50 is not updated. Send a Request message to request an update.

  Next, the CSE 50 transmits a Response message to the NSE 60 (S 182). Next, the CSE 50 updates the held resources based on the Request message in step S181, and determines to transmit the Request message to the AE 40 (S183). Next, the CSE 50 transmits a Request message to the AE 40 (S184). Next, the AE 40 executes the instructed service based on the Request message (S185). This figure is executed, for example, when the AE 40 has previously set notification of the change to the AE when a change occurs in the CSE resource.

  Subsequently, the flow of parameter change processing according to the third embodiment of the present invention will be described using FIG. First, the AE 60 transmits an M2M Devices Information notification message to the CSE 70 (S11). Next, upon receiving the M2M Devices Information notification message transmitted from the AE 60, the CSE 70 executes M2M Devices Information notification message reception processing (S12). The M2M Devices Information notification message reception process includes the authentication process of the AE 60 in the CSE 70. The M2M Devices Information notification message reception process in step S12 will be described in detail later.

  Next, when the CSE 70 authenticates that the AE 60 is an AE previously permitted to be connected, the CSE 70 transmits an M2M Devices Information notification message to the NSE 80 (S13).

  Next, upon receiving the M2M Devices Information notification message transmitted from the CSE 70, the NSE 80 transmits a response message to the CSE 70 (S14). When the CSE 70 receives the response message transmitted from the NSE 80, the CSE 70 transmits a response message to the M2M Devices Information notification message in step S11 (S15).

  After transmitting the response message in step S14, the NSE 60 carries out a process of changing parameters associated with the designated communication terminal (S16).

  Subsequently, the flow of an M2M Devices Information notification message reception process according to the third embodiment of the present invention will be described with reference to FIG. First, upon receiving the M2M Devices Information notification message transmitted from the AE 60, the CSE 70 authenticates the AE 60 that is the transmission source of the M2M Devices Information notification message (S21). Specifically, the CSE 70 determines whether the AE 60 is an AE previously permitted to connect to the CSE 70. The CSE 70 may hold list information on AEs permitted to connect to the CSE 70 in advance. The CSE 70 may determine whether AE 60 is included in the list information.

  If the CSE 70 determines that the AE 60 is not included in the list information (authentication NG), the process ends. When the CSE 70 determines that the AE 60 is included in the list information, the CSE 70 selects an NSE to which an M2M Devices Information notification message is to be sent (S22). The CSE 70 selects, for example, an NSE holding parameters related to the terminal specified in the M2M Devices Information notification message. Moreover, when there is one NSE connected to the CSE 70, this step may be omitted.

  Next, when the CSE 70 selects the NSE 80, the CSE 70 converts the M2M Devices Information notification message transmitted from the AE 60 into the format used in the selected NSE 80. Here, the format used in the NSE 80 is defined as a Z Reference Point. The Z Reference Point defines a common format and an M2M Devices Information format that defines necessary information items when transmitting an M2M Devices Information notification message from the CSE 70 to the NSE 80.

  As described above, the communication network according to the third embodiment of the present invention defines X Reference Points and Z Reference Points between AE 60 and CSE 70 and between CSE 70 and NSE 80, respectively. By this, when the AE 60 acquires information on the behavior of the terminal from the communication terminal 50, the AE 60 can notify the information on the behavior of the terminal to the NSE 80 via the CSE 70. The NSE 80 can be modified to optimize parameters for the communication terminal 50 by obtaining information on the behavior of the terminal.

Embodiment 4
Subsequently, a configuration example of a communication network according to the fourth embodiment of the present invention will be described using FIG. In this figure, a detailed configuration example regarding the NSE 80 in FIG. 5 will be mainly described. In this figure, a configuration example in which the CSE 70 is connected to a mobile communication network configured using a node device defined in 3GPP will be described.

  The communication network of FIG. 25 includes AE 60, CSE 70, Machine Type Communication (MTC) -Interworking Function (IWF) entity 81, Home Subscriber Server (HSS) 82, and Mobility Management Entity (MME) 83. AE 60 and CSE 70 are the same as those in FIG.

  The MTC-IWF entity 81 obtains the message sent from the CSE 70. The MTC-IWF entity 81 specifies a parameter to be changed regarding the communication terminal 50 based on the information on the behavior of the communication terminal 50 set in the received message.

  The HSS 82 holds subscriber information on the communication terminal 50. The subscriber information may include, for example, contract information on the communication terminal 50, position information, and the like. When instructed by the MTC-IWF entity 81 to change the parameters related to the communication terminal 50, the HSS 82 changes the parameters related to the communication terminal 50 held by the own apparatus.

  The MME 83 performs movement management of the communication terminal 50. For example, the MME 83 manages the position registration area of the communication terminal 50, and further performs path control of user data transmitted and received by the communication terminal 50. When instructed by the MTC-IWF entity 81 to change the parameters related to the communication terminal 50, the HSS 82 changes the parameters related to the communication terminal 50 held by the own apparatus.

  Also, Tsp is an interface defined between the CSE 70 and the MTC-IWF entity 81, S6m is an interface defined between the MTC-IWF entity 81 and the HSS 82, and T5b is an MTC-IWF entity 81. And the MME 83 are defined. The specifications, etc. of Tsp, S6m, and T5b are respectively defined in 3GPP.

  As described above, by using the communication network according to the fourth embodiment of the present invention, it is possible to change the parameters related to the communication terminal in the mobile communication network having the node device defined in 3GPP.

Fifth Embodiment
Subsequently, a configuration example of a communication network according to the fifth embodiment of the present invention will be described using FIG. The communication network in this figure is configured by removing the application server 10 from the communication network in FIG. 1, and the configuration other than the application server 10 is the same as the communication network in FIG.

  In the communication network of this figure, the common service device 20 acquires information on the behavior of the communication terminal 50 transmitted from the communication terminal 50. In the communication network of FIG. 1, the common service device 20 acquires information on the behavior of the communication terminal 50 via the application server 10. However, in the communication network of FIG. 1, the common service device 20 is a communication terminal Get information about behavior from 50

  The common service device 20 may acquire information on behavior from the communication terminal 50 via the mobile network 30, and may acquire information on behavior from the communication terminal 50 via another network.

  As described above, by using the communication network according to the fifth embodiment of the present invention, the common service device 20 can acquire information on behavior from the communication terminal 50. That is, the common service device 20 can obtain information on behavior directly from the communication terminal 50 as well as through the application server 10. This eliminates the need for the common service device 20 to define an interface with the application server 10, so the device configuration can be simplified as compared with FIG.

  In addition, the common service device 20 may use a configuration in which information on behavior of the communication terminal 50 is acquired via the application server 10 and a configuration in which the information is directly acquired from the communication terminal 50.

  Although the present invention has been described as a hardware configuration in the above embodiment, the present invention is not limited to this. The present invention can also realize the processing in the common service device 20 and the mobile network node 40 by causing a central processing unit (CPU) to execute a computer program.

  In the above-mentioned example, the program can be stored using various types of non-transitory computer readable media and supplied to a computer. Non-transitory computer readable media include tangible storage media of various types. Examples of non-transitory computer readable media are magnetic recording media (eg flexible disk, magnetic tape, hard disk drive), magneto-optical recording media (eg magneto-optical disk), CD-ROM (Read Only Memory), CD-R, CD-R / W, semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (Random Access Memory)) are included. Also, the programs may be supplied to the computer by various types of transitory computer readable media. Examples of temporary computer readable media include electrical signals, light signals, and electromagnetic waves. The temporary computer readable medium can provide the program to the computer via a wired communication path such as electric wire and optical fiber, or a wireless communication path.

  The present invention is not limited to the above embodiment, and can be appropriately modified without departing from the scope of the present invention.

  As mentioned above, although this invention was demonstrated with reference to embodiment, this invention is not limited by the above. The configuration and details of the present invention can be modified in various ways that can be understood by those skilled in the art within the scope of the invention.

  This application claims priority based on Japanese Patent Application No. 2013-202773 filed on Sep. 27, 2013, the entire disclosure of which is incorporated herein.

DESCRIPTION OF REFERENCE NUMERALS 10 application server 11 behavior management unit 20 common service device 21 communication unit 22 authentication unit 30 mobile network 40 mobile network node 41 parameter management unit 50 communication terminal 60 AE
70 CSE
75 CSFs
80 NSE
81 MTC-IWF Entity 82 HSS
83 MME

Claims (8)

Communication means configured to receive the identifier of the communication terminal transmitted from the application server and the information indicating the characteristics of the communication terminal;
Control means configured to determine whether to transmit information indicating the characteristic of the communication terminal to the mobile network node device;
Service common equipment comprising: The information indicating the movement characteristic of the communication terminal is
The service common apparatus according to claim 1, further comprising information indicating whether the communication terminal is fixed or moving. The information indicating the communication characteristic of the communication terminal is
The service common apparatus according to claim 1, further comprising information indicating communication time of the communication terminal. The information indicating the movement characteristic and communication characteristic of the communication terminal is
The service common apparatus according to any one of claims 1 to 3, which is used to derive parameters of the communication terminal for optimizing network processing. Receiving an identifier of a communication terminal transmitted from an application server, and information indicating at least one of a movement characteristic and a communication characteristic of the communication terminal;
Confirming that the application server is authorized to transmit information indicating the characteristics of the communication terminal,
A determination method executed in a service common apparatus, which determines whether to transmit information indicating the characteristic of the communication terminal to a mobile network node apparatus. The information indicating the movement characteristic of the communication terminal is
The method according to claim 5, wherein the communication common terminal includes information indicating whether the communication terminal is fixed or moving. The information indicating the communication characteristic of the communication terminal is
The determination method implemented in the service common apparatus according to claim 5 or 6, including information indicating a communication time of the communication terminal. The information indicating the movement characteristic and communication characteristic of the communication terminal is
The determination method implemented in the service common apparatus according to any one of claims 5 to 7, used to derive parameters of the communication terminal for optimizing network processing.

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